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Original Article

Korean Journal of Medical Physics 2010; 21(3): 253-260

Published online September 25, 2010

Copyright © Korean Society of Medical Physics.

Dose Verification Study of Brachytherapy Plans Using Monte Carlo Methods and CT Images

CT 영상 및 몬테칼로 계산에 기반한 근접 방사선치료계획의 선량분포 평가 방법 연구

Kwang-Ho Cheong, Me Yeon Lee, Sei-Kwon Kang, Hoonsik Bae, Soah Park, Kyoung-Joo Kim, Tae-Jin Hwang, Do-Hoon Oh

정광호ㆍ이미연ㆍ강세권ㆍ배훈식ㆍ박소아ㆍ김경주ㆍ황태진ㆍ오도훈

Department of Radiation Oncology, Hallym University College of Medicine, Anyang, Korea

한림대학교 의과대학 방사선종양학교실

Abstract

Most brachytherapy treatment planning systems employ a dosimetry formalism based on the AAPM TG-43 report which does not appropriately consider tissue heterogeneity. In this study we aimed to set up a simple Monte Carlo-based intracavitary high-dose-rate brachytherapy (IC-HDRB) plan verification platform, focusing particularly on the robustness of the direct Monte Carlo dose calculation using material and density information derived from CT images. CT images of slab phantoms and a uterine cervical cancer patient were used for brachytherapy plans based on the Plato (Nucletron, Netherlands) brachytherapy planning system. Monte Carlo simulations were implemented using the parameters from the Plato system and compared with the EBT film dosimetry and conventional dose computations. EGSnrc based DOSXYZnrc code was used for Monte Carlo simulations. Each 192Ir source of the afterloader was approximately modeled as a parallel-piped shape inside the converted CT data set whose voxel size was 2×2×2 mm3. Bracytherapy dose calculations based on the TG-43 showed good agreement with the Monte Carlo results in a homogeneous media whose density was close to water, but there were significant errors in high-density materials. For a patient case, A and B point dose differences were less than 3%, while the mean dose discrepancy was as much as 5%. Conventional dose computation methods might underdose the targets by not accounting for the effects of high-density materials. The proposed platform was shown to be feasible and to have good dose calculation accuracy. One should be careful when confirming the plan using a conventional brachytherapy dose computation method, and moreover, an independent dose verification system as developed in this study might be helpful.

KeywordsMonte Carlo, DOSXYZnrc, AAPM TG-43, Brachytherapy, 192Ir

Korean Society of Medical Physics

Vol.35 No.4
December 2024

pISSN 2508-4445
eISSN 2508-4453
Formerly ISSN 1226-5829

Frequency: Quarterly

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